Learn how Keysight SystemVue and Radar Model Library, when combined with STK from Analytical Graphics, Inc (AGI), can be used to create realistic, "RF-aware" Radar/EW signals for simulation, verification, and download to test equipment.

In this video we show the Electronic System Level, or ESL, design flow from Keysight based on SystemVue -- the fastest way to design and validate challenging physical layer communications systems, where baseband and RF must work together.

SystemVue generates custom OFDM communications signals that can be used to test Layer 1 PHY architectures, both in test equipment as well as simulation. Take a tour of this capability and see how easy it can be to work with the latest Wireless and Military communications formats.

This 3-part video demonstrates the step-by-step procedure to create SERDES behavioral representation and generation of AMI models. This video is for SERDES vendors and system designer who needed to create AMI models for their devices or create custom TX/RX topologies for channel simulation.

Demonstration of the design and verification of an FPGA-based mobile WiMAX IQ Modulator for a software-defined radio (SDR). The flow shows a design example in the W1462 SystemVue FPGA Architect, from algorithm to fixed-point to VHDL to Xilinx ISE synthesized .bit file to Nallatech board to Keysight VSA/Infiniium verification.
In Part 1 of 4, the Fixed Point design is introduced.

Demonstration of the design and verification of an FPGA-based mobile WiMAX IQ Modulator for a software-defined radio (SDR). The flow shows a design example in the W1462 SystemVue FPGA Architect, from algorithm to fixed-point to VHDL to Xilinx ISE synthesized .bit file to Nallatech board to Keysight VSA/Infiniium verification.
In Part 2 of 4, the VHDL is generated and co-simulated with the Keysight 89600 VSA software.

Demonstration of the design and verification of an FPGA-based mobile WiMAX IQ Modulator for a software-defined radio (SDR). The flow shows a design example in the W1462 SystemVue FPGA Architect, from algorithm to fixed-point to VHDL to Xilinx ISE synthesized .bit file to Nallatech board to Keysight VSA/Infiniium verification.
In Part 3 of 4, the VHDL is co-verified with nonlinear RF simulation models for system-level performance as measured by the Keysight 89600 VSA software.

Demonstration of the design and verification of an FPGA-based mobile WiMAX IQ Modulator for a software-defined radio (SDR). The flow shows a design example in the W1462 SystemVue FPGA Architect, from algorithm to fixed-point to VHDL to Xilinx ISE synthesized .bit file to Nallatech board to Keysight VSA/Infiniium verification.
In Part 4 of 4, the FPGA is synthesized and verified using "rapid prototyping" techniques.

Learn how to write and debug a custom DSP model in C++ and within 10 minutes, link it into the W1461 SystemVue Communications Architect software for verification within a working Physical Layer dataflow.

This product tutorial shows how the new W1461 SystemVue can speed up modulated carrier analysis by 1000x compared to older software programs, without loss of RF accuracy. This lets you do DSP on complex signals, such as WiMAX® and LTE.

This product tutorial shows how to export a meta-network from an older version of SystemVue (2007.03) and import it into SystemVue 2009.05 or later. This allows re-use of important designs in the new platform.

This tutorial video shows how X-parameter* models can be used in SystemVue system-level designs. This unites measured RF components with Baseband DSP and algorithm design in a single top-down design flow.

This tutorial video shows you how to generate C++ source code from a SystemVue system-level schematic. This enables you to connect SystemVue to external baseband hardware development environments, virtual platforms, and verification.

Shows SystemVue exporting a waveform application to the “Spectra CX” platform from PrismTech, for packaging, deployment, and verification of the raw functional blocks as SCA-compliant software components for military software-defined radio.

This recorded Webcast takes a practical approach to digital pre-distortion (DPD) using inexpensive, commercially available simulation tools, libraries, and test equipment to model and correct for the distortion and memory effects in an off-the-shelf LTE power amp. The models, equipment setup, and the extraction methodology are discussed. Then results are shown with and without DPD, and additional practical insights given for realization, performance trade-offs, and additional customizations that are possible. Click here to view the slides.

SystemVue's free OFDM physical layer simulation blockset is used to verify a collision-avoidance algorithm for cognitive radio. An interferer is sensed, and the OFDM carriers reallocated to avoid the source of EVM/BER degradation.